CN204521978U

CN204521978U - Tattooing machine

Info

Publication number: CN204521978U
Application number: CN201520043144.5U
Authority: CN
Inventors: 亚当·卡尔·米勒; 伊戈尔·叶夫根尼·恰克
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-01-21
Filing date: 2015-01-21
Publication date: 2015-08-05
Anticipated expiration: 2025-01-21
Also published as: EP2896427A1; US20150202420A1; US9393395B2

Abstract

For swinging a tattooing machine for tattooing needle, comprise main shell and the motor being fixed on main shell.Shank component is fixed on main shell movably with its Linear oscillating relative.Driving mechanism is operably connected to motor output shaft and shank component, the rotary motion of output shaft to be converted to the Linear oscillating of shank component.

Description

Tattooing machine

Technical field

This utility model relates generally to tattooing machine.

Background technology

As everyone knows, tattooing machine is used for ink to be placed in below the surface of object or article (skin of such as people).Particularly, pin or spicule pierce through surface, and ink is placed in below surface.When this surface is organic skin, ink is placed in the degree of depth that skin ink inside can forever keep.Because ink is permanent, therefore for tattooing machine, an important design considers it is that pin can accurately be located by tattooing machine and it can be accurately controlled when needle-penetration is surperficial.Usually, pin can move back and forth to pierce through surface, and this motion is preferably limited in the direction vertical with reciprocating axle.

As everyone knows, tattooing machine has reciprocating shaft.Some existing unit use open, mechanical make and break electric contact-system, the pivot arm of this system drive motor operation.Successively, up-down vibration.Other types use the motor actuating arm with eccentric cam to move up and down.During use, make and break unit has visible sparking to contact usually, and may produce the noise of high-decibel.Due to distortion and the wearing and tearing of any elastomeric element (such as spring), the tattooing machine of this two type all may need often to adjust.Other shortcoming of tradition tattooing machine also comprises: lack the accurate control to moving back and forth shank, and the mode of shortage cheap and simple is to clean etc. tattooing machine when using interval when not damaging the electric component of tattooing machine.

Utility model content

According to an aspect, the tattooing machine for swinging tattooing needle comprises main shell and is fixed on the motor of this main shell.Shank component is fixed on main shell movably, with its Linear oscillating relative.Driving mechanism is operably connected to output shaft and the shank component of motor, the rotary motion of output shaft to be converted to the Linear oscillating of shank component.

According to another aspect, provide a kind of method of damping tattooing machine.More specifically, according to the method, provide main shell, motor and shank component.Motor is fixed on main shell.Shank component is fixed on main shell movably, with its Linear oscillating relative.Driving mechanism is arranged on main shell, the rotary motion of motor output shaft to be converted to the Linear oscillating of shank component.

According to more on the one hand, tattooing machine comprises main shell, is removably attached to the motor of main shell and is fixed on the shank component of main shell movably.Tattooing machine comprises the driving mechanism of the linear movement spinning movement from motor being converted to shank component further.Also comprise for the linear movement of damping shank component or the removably attached motor Magnet to main shell.

Accompanying drawing explanation

Fig. 1 is the side view of tattooing machine, comprises the pipe and to be placed in pipe and to be connected to tattooing machine to make it swing or reciprocating tattooing needle of tatooing with the handle be fixed thereon.

Fig. 2 is the sectional view of tattooing machine shown in Fig. 1.

Fig. 3 is the decomposition diagram of tattooing machine shown in Fig. 1.

Fig. 4 and Fig. 2 is similar, but is the sectional view of the tattooing machine according to Alternative exemplary embodiment.

Fig. 5 and Fig. 2 is similar with Fig. 4, but is the sectional view of the tattooing machine according to another Alternative exemplary embodiment.

Fig. 6 and Fig. 5 is similar, and identical tattooing machine is shown, but the plug of alternative end cap and Magnet is shown, is applicable to cartridge type tattooing needle to make tattooing machine.

Detailed description of the invention

Description, content shown in it is in order to one or more exemplary embodiment is described, instead of this utility model is limited to this, and Fig. 1 illustrates tattooing machine 10, for swinging the tattooing needle 12 of tatooing in pipe 14.As shown in the figure, tattooing machine 10 comprises main shell 16 and is fixed on the motor 18 of main shell 16.In shown specific embodiment, will describe in more detail below, motor 18 is removably attached to main shell 16.To describe in more detail below equally, main shell 16 holds or encloses multiple movable parts of tattooing machine 10, but those skilled in the art can understand, term " shell " is intended to extensively contain any structure, this structure (fully or partly) is enclosed, around or otherwise provide structure for these moving-members, it can comprise shell or the closure member of open framework or part.

Shank component 20 is fixed on main shell 16 movably, with its Linear oscillating or reciprocating motion relatively.As shown in the figure, one end 12a of pin 12 can be fixed in shank component 20, to change the swing of shank component 20 or reciprocating motion to pin 12.Shank component 20 and pin 12 all move relative to shell 16 and the pipe 14 of tatooing that is temporarily firmly fixed at shell 16.It is known to those skilled in the art that pipe 14 can be equipped with handle 22, it can integrally be formed or can be formed independently with pipe thus can dismantle from pipe 14.Handle 22 makes the position of the user of tattooing machine 10 accurate control valve top 14a, and when pin 12 is moved reciprocatingly by shank component 20, pin 12 repeatedly stretches out from pipe.

Driving mechanism 30,32 is operably connected to output shaft 26 and the shank component 20 of motor 18, the rotary motion of output shaft 26 to be converted to Linear oscillating or the reciprocating motion of shank component 20.Therefore, the spinning movement from motor 18 is converted to the linear movement of shank component 20 by driving mechanism 30,32.Optionally, as will be described in greater detail below, tattooing machine 10 can comprise for the linear movement of damping shank component 20 and/or removably attached motor 18 Magnet to main shell 16.In the embodiment shown, and for example will be described in greater detail below, Magnet not only for the linear movement of damping shank component 20 but also for removably attached motor 18 to main shell 16.

In addition referring to figs. 2 and 3, the driving mechanism 30,32 of shown tattooing machine 10 comprises eccentric component 30 and cylinder 32.Such as by shown dog screw 28, eccentric component 30 is fixed on the output shaft 26 of motor 18 therewith to rotate.Cylinder 32 is operably connected to shank component 20 and has the notch that is defined in wherein or groove 34 with complementary accommodating eccentric component 30, so that the rotary motion of eccentric component 30 make cylinder 32 or its at least partially or some linear swing or move back and forth, and make shank component 20 Linear oscillating or reciprocating motion thus.Especially, eccentric component 30 is firmly fixed at output shaft 26, with the corresponding rotation making the rotation of output shaft 26 cause eccentric component 30.By this layout, along with rotating shaft 26 is rotated by motor 18, in groove 34 rotation of eccentric component 30 cause cylinder 32 or at least its a part or some parts do Linear oscillating or reciprocating motion along its longitudinal axis.Although illustrated embodiment uses driving mechanism 30,32, but those skilled in the art can understand, driving mechanism does not need completely as shown here and/or described, can be suitable for the spinning movement of motor to convert to the Linear oscillating of tattooing needle or reciprocating any driving mechanism.

Cylinder 32 in illustrated embodiment comprises the main piston 40 and auxiliary piston 42 that are wherein limited with groove 34, and auxiliary piston 42 is placed in the axial dimple 44 that limits in one end 40a of main piston 40 slidably and nestedly.Shank component 20 is fixed or is firmly fixed on auxiliary piston 42, to be synchronized with the movement with it.That is, Linear oscillating or reciprocating motion result between auxiliary piston 42 and shank component 20 synergistically.In shown specific embodiment, shank component 20 comprises end of thread 20a and pin attached end 20b, and end 20a, 20b are isolated by radial flange 20c, and radial flange 20c limits the radial motion of shank component 20 or insertion shell 16.End of thread 20a is placed in radial direction threadably and is limited in screwed hole in auxiliary piston 42 or hole 46, securely shank component 20 is fixed to auxiliary piston 42 thus.By firmly fixing, this means the motion of part 20 and 42 one, if but need, shank component 20 can get loose out to dismantle tattooing machine 10 from hole 46, is especially removed from cylinder 32 by shank component 20.

Main piston 40 comprises the basal wall 48 limiting axial dimple 44 degree of depth.When eccentric component 30 moves main piston 40 and at first direction (namely in Fig. 2 upwards) in the first direction together with main piston 40 during moving sets piston 42 towards auxiliary piston 42, (namely basal wall 48 is close to one end 42a (such as lower end 42a) of auxiliary piston 42, when moving upward, because basal wall 48 is close to the end 42a of auxiliary piston 42, main piston 40 moves together with auxiliary piston 42).In contrast, when main piston 40 by eccentric component 30 with second, rightabout drive time () in Fig. 2 downwards, auxiliary piston 42 need not movement collaborative with main piston 40.

In the embodiment shown, main piston 40 comprises and limits the circumference of axial dimple 44 or the sidewall 50 of external dimensions.Sidewall 50 also limits by the axial groove 52 of at least one in its accommodating auxiliary piston 42 and shank component 20.Especially, in the embodiment shown, the end of thread 20a of shank component 20 is through the axial groove 52 of main piston 40 and the groove 16b that is defined in shell 16, but this is optional.Limit end 50a, 50b constraint of the sidewall 50 of axial groove 52 or restriction auxiliary piston 42 and shank component 20 especially relative to swing or the reciprocating motion of main piston 40.Especially, end 50a, 50b limits auxiliary piston 42 as retainer and is firmly fixed at the relative motion of the shank component 20 on it relative to main piston 40.

Cylinder 32 in illustrated embodiment comprises the accommodating shroud member 54 in the inner of main piston 40 further.Shroud member 54 can be firmly fixed at shell 16, thus piston 40,42 moves (i.e. the part of piston 40,42 movement in machine 10 operates that is cylinders 32 or part) relative to shroud member 54 and shell 16.As shown in the figure, shroud member 54 can have restriction axial sleeve groove 56 in the inner, and the axial groove 52 be defined in main piston 40 can axially sleeve groove 56 slide.Shroud member 54 also can have or limit the notch 58 be defined in the inner, and the groove 34 of main piston 40 slides along notch 58.As shown in the figure, shroud member 54 can have be defined in contiguous shroud member 54 respective end 54a, 54b planar portions 60, to be installed in main shell 16 to make shroud member 54 and it is arranged relatively, so that shroud member 54 main shell 16 non rotating relatively.Advantageously, the cylinder 32 comprising main piston 40, auxiliary piston 42 and shroud member 54 is in the embodiment shown compact unit or assembly, can be installed on and comprise in the various shells of main shell 16 shown in illustrated embodiment.

Tattooing machine 10 can comprise the pair of magnet that one end of being positioned at cylinder 32 in main shell 16 is axially arranged in addition, with the swing of the swing of damping cylinder 32 or at least piston 40,42, thus the swing of damping shank component 20.In the embodiment illustrated in figs. 1-3, machine 10 comprises pair of magnet 70,72 and second pair of Magnet 74,76, and pair of magnet 70,72 is axially arranged at the 32a place, lower end being positioned at cylinder 32 in main shell 16, is arranged at the 40b place, lower end of piston 40 especially; The second pair of Magnet 74,76 to be also axially arranged in main shell 16 but to be arranged on the 32b place, upper end of cylinder 32, is arranged on the 42b place, upper end of auxiliary piston 42 especially.Two pairs of Magnet 70,72 and 74,76 can be used to the motion of damping shank component 20.Especially, pair of magnet 70,72 can the extension campaign (namely causing the motion that tattooing needle 12 stretches out from pipe 14 of tatooing) of damping shank component 20, and the second pair of Magnet 74,76 can the retracting motion (namely cause tattooing needle 12 to be retracted into or towards the motion of pipe 14 of tatooing) of damping shank component.

A pair or two pairs of Magnet 70,72 and 74,76 can be adjustable, to adjust for cylinder 32 especially for the damping amount of piston 40,42.In the tattooing machine 10 of illustrated embodiment, two pairs of Magnet 70,72 and 74,76 are adjustable.Especially, when cylinder 32 (or piston 40,42) is static, axial distance is limited between pair of magnet 70,72, and this axial distance is adjustable, to adjust the damping amount that pair of magnets 70,72 provides.Similarly, when cylinder 32 (or piston 40,42) is static, another axial distance is limited between second pair of magnet 74,76, and this axial distance between Magnet 74,76 is adjustable, to adjust the damping amount that second pair of Magnet 74,76 provides.The axial distance adjusted between each pair of Magnet makes the damping of reciprocating shank component 20 be adjustable and adjustable control.In addition, be different from mechanical dampers (as spring), the damping that Magnet provides can not be degenerated and/or ultimate failure in time, thus improves the working life of tattooing machine 10.

More specifically, with reference to the tattooing machine 10 in illustrated embodiment, this can be arranged as the first Magnet 70 of Magnet 70,72 and cylinder 32 is especially synchronized with the movement with the main piston 40 of cylinder 32.Second Magnet 72 of pair of magnet 70,72 often can be fixed relative to main shell 16.Especially, second Magnet 72 is mobile to adjust this to the axial distance between Magnet 70,72 adjustably relative to main shell 16, but comprise shank component 20 reciprocating motion tattooing machine 10 operation in, the second Magnet 72 relative to main shell 16 generally or normality keep fixing.Similarly, the first Magnet 74 of second pair of Magnet 74,76 is arranged as and cylinder 32 is especially synchronized with the movement with auxiliary piston 42, and the second Magnet 76 of second pair of Magnet 74,76 is often fixed relative to main shell 16.Especially, second Magnet 76 is that adjustable moves relative to main shell 16, to adjust the axial distance between second pair of Magnet 74,76, but comprise shank component 20 reciprocating motion tattooing machine 10 operation in, the second Magnet 76 relative to main shell 16 generally or normality keep fixing.

In concrete tattooing machine 10 shown in Fig. 1-3, the first Magnet 70 of pair of magnet 70,72 can be placed in the axial dimple 78 that limits in the lower end 40b of the main piston 40 relative with end 40a.Equally, the Magnet 74 of second pair of Magnet 74,76 can be placed in in the axial dimple 80 limited in the upper end 42b of the relative auxiliary piston 42 of end 42a.Such as by frictional fit, binding agent or other known attachment type, two Magnet 70,74 can be firmly fixed at respective pistons 40,42.

Second Magnet 72 of pair of magnet 70,72 can be firmly fixed at adjustment component 82.Especially, Magnet 72 can be placed in axial dimple 84, and this axial dimple 84 is defined in the end 82a of adjustment component 82, and by any suitable connection type as fixed with it by frictional fit, bonding etc.Second-phase opposite end 82b can be operating grip 86 screw-threaded engagement of the position adjusting Magnet 72 with function.End cap 88 can be fixed in the lower end of main shell 16, with fixing or holding cylinder 32 in main shell 16.End cap 88 can have the operating grip 86 be fixed thereon rotatably, and can comprise plane 60a to coordinate and to stop relative rotation between sleeve 58 and shell 16 with the plane 60 on sleeve 58.In addition, the end of thread 82b of adjustment component 82 is accommodating by end cap 88, so that rotating operating handle 86 causes adjustment component 82 and the Magnet 72 be fixed thereon relative to end cap 88 with relative to cylinder 32 Linear-moving be arranged in main shell 16, and therefore relative to Magnet 70 Linear-moving.End cap 88 is fixed on main shell 16 by fixture suitable arbitrarily, as illustrated screw 90.

Equally, the Magnet 76 of second pair of Magnet 74,76 can be firmly fixed at adjustment component 92.Especially, Magnet 76 can be placed in the end 92a of adjustment component 92 in the axial dimple 94 that limits, and can by being fixed thereon the description of Magnet 72 above.Second-phase opposite end 92b can be fixed to by screw thread the operating grip 96 that function is the position of adjustment Magnet 76.End cap 98 can be fixed on the upper end of main shell 16, with fixing or holding cylinder 32 in main shell 16.Operating grip 96 is rotatably fixed on end cap 98, allow rotating operating handle 96 to adjust ground moving magnet 76 relative to main shell 16 with relative to cylinder 32 to adjust the screw-threaded engagement of component 92 particularly between end of thread 92b and operating grip 96, and therefore adjust it relative to Magnet 74 and move.End cap 98 is by fixture suitable arbitrarily, and screw 100 as shown, is fixed on main shell 16, and end cap 98 can comprise plane (not shown), coordinates with the plane 60a of the upper end with sleeve 58.

In order to keep pipe 14 of tatooing, main shell 16 can limiting hole 110 in addition, and pipe 14 passing hole 110 of tatooing is accommodating.Adjustment component 112 is arranged at movably and stretches out the screw member 114 of also adjacent bores 110 from main shell 16.Adjustment component 112 can comprise groove 116 with complementally accommodating and engagement pipe 14 be supported on main shell 16 by pipe 14, and especially one defines hole 110.By being threadably contained in the operating grip 118 on screw member 114, can adjust adjustment component 112.

In addition, main shell 16 can comprise housing department 16a, is removably equipped with motor 18 in it.Motor 18 can be firmly fixed in motor case 120, and motor case 120 is removably fixed on main shell 16 in housing department 16a, thus motor case 120 and motor 18 are optionally dismantled from main shell 16.Especially, in the embodiment shown, connected by least one magnetic, motor case 120 is removably fixed on main shell 16.Such as, as shown in the figure, magnetic connects can comprise one or more Magnet 122 being fixed on motor case 120, and motor case 120 magnetically can be connected to the one or more Magnet 124 being fixed on main shell 16.The benefit removing motor case 120 and motor 18 from main shell 16 allows clean tattooing machine 10 and do not destroy motor 18.

Refer now to Fig. 4, the tattooing machine 200 according to Alternative exemplary embodiment is shown.Except as follows, tattooing machine 200 can the same as or similar to tattooing machine 10, and therefore identical Reference numeral is used on identical parts.The main difference of tattooing machine 200 and tattooing machine 10 is that tattooing machine 200 only comprises and is arranged at the single to Magnet (namely not providing Magnet in the upper end of piston 240) of piston 240 lower end, and does not comprise auxiliary piston (as auxiliary piston 42).Do not have auxiliary piston, shank component 20 is directly fixed on main piston 240 to be synchronized with the movement with it.Only by single to Magnet 72,76, only when tattooing needle 12 moves towards the position extended by piston 240 and shank component 20, just there is the damping that Magnet produces.Most if not all other sides, tattooing machine 200 can work as the tattooing machine 10 in Fig. 1-3.

Refer now to Fig. 5, the tattooing machine 300 according to another Alternative exemplary embodiment is shown.Except as follows, tattooing machine 300 can the same as or similar to tattooing machine 200.The main difference of tattooing machine 300 and tattooing machine 200 is, the adjustment component 82 that tattooing machine 200 lower end provides, operating grip 86 and end cap 88 are substituted (namely when pipe 14 of tatooing is arranged on tattooing machine 300, end cap 388 can not be adjusted) by the end cap 388 that only selectivity is adjustable in tattooing machine 300.More particularly, the end cap 388 in illustrated embodiment comprises the projection 388a for being mounted thereon by annular magnet 372 inwardly.With tattooing machine 200, the Magnet 372 in tattooing machine 300 is positioned opposite with another Magnet 376 in tattooing machine 300.Be to be understood that ground, Magnet 372,376 does not need for annular, and this definite layout that Magnet is cooperatively arranged in tattooing machine 300 can change.

As shown in the figure, dog screw 382 is fixed and the position of locking end cap 388, and position that is fixing thus and locking tattooing machine 300 internal magnet 372.As shown in the figure in embodiment, dog screw 382 can be placed in the groove 388b of the end cap 388 for limiting the axial adjustment amount of end cap 388, but this is optional.In order to adjust the position of end cap 388 and change Magnet 372, dog screw 382 loosens by proper implements (as turret head instrument), and end cap 388 moves to the position of expectation, and dog screw 382 tightens again.Notably, when pipe 14 of tatooing is arranged in tattooing machine 300, dog screw 382 can not loosen.Correspondingly, when do not have in tattooing machine installation tatoo pipe 14 time, could adjust the position of the Magnet 372 of end cap 388 and upper carrying thereof.

Refer now to Fig. 6, shown tattooing machine 300 is with the cartridge type tattooing needle assembly 314 be arranged in tattooing machine.As those skilled in the known with understood, cartridge type tattooing needle assembly 314 comprises: can be arranged on the pipe 314a in tattooing machine 300 in the mode identical with pipe 14 of tatooing, handle 314b for holding in tattooing machine operation, and be removably contained in the syringe 314c in handle 314b.Because cartridge type tattooing needle assembly 314 inside comprises elastic device (as elastic diaphragm), the magnetically damped in tattooing machine 300 normally undesirably has.Correspondingly, Magnet 372 shown in Fig. 5 and end cap 388 can remove and be substituted by end cap 488.In one embodiment, end cap 488 is a kind of inert plastic plugs, plays preventing pollution thing and enters tattooing machine 300 and keep tattooing machine 300 exterior appearance (namely there will not be only be removed as end cap 388 and have the situation come out in unlimited hole not involution original position).

A kind of method for damping tattooing machine is now described.Especially, the tattooing machine 10 of the method composition graphs 1-3 is described, but those skilled in the art can understand the method can be used for other tattooing machine.In the method, main shell 16, motor 18 and shank component 20 are all provided.Motor 18 is fixed on main shell 16.Shank component 20 is fixed on main shell 16 movably with its Linear oscillating relative.Driving mechanism 30,32 is arranged in Linear oscillating main shell 16 converting shank component 20 with the rotary motion of the output shaft 26 by motor 18 to.The cylinder 32 that driving mechanism 30,32 can comprise eccentric component 30 and be made up of main piston 40 and auxiliary piston 42.When motor 18 rotating eccentricity component 30, eccentric component 30 driven plunger 40 or piston 40 is moved back and forth along its axis linearity.Especially, by auxiliary piston 42, piston 40 moves back and forth shank component 20 (in contrast, piston 40 ' directly moves back and forth shank component 20).

In the method, the Linear oscillating of shank component 20 can by pair of magnet damping.Such as, this lower end that can be provided in tattooing machine 10 to Magnet 70,72 is provided in the upper end of tattooing machine 10 with the retracting motion of damping pin 12 with the extension campaign of damping pin 12 and/or pair of magnet 74,76.In addition, this damping provided by described Magnet is adjusted by moving first Magnet of described paired Magnet relative to second Magnet of described paired Magnet.Such as, especially when tattooing machine 10 does not use or when using interval, Magnet 72 can be moved relative to Magnet 70 and/or moved relative to Magnet 74 by Magnet 76.Further, the magnetic be fixed with between the motor case 120 of motor 18 and main shell 16 by inside connects (as Magnet 122 is connected with the magnetic between 124), and motor 18 can be removed.

Should be appreciated that above disclosed various and further feature and effect or alternative or modification, can be desirably attached in other different systems many or application.Further, those skilled in the art subsequently made various cannot predict or expect at present its substitute, modification, change or improvement, also should be included in claim below.

Claims

1., for swinging a tattooing machine for tattooing needle, comprising:

Main shell;

Be installed on the motor of described main shell;

Shank component, is fixed on described main shell movably with its Linear oscillating relative; With

Driving mechanism, is operably connected to the output shaft of described motor and described shank component the rotary motion of described output shaft to be converted to the Linear oscillating of described shank component.

2. tattooing machine according to claim 1, is characterized in that, described driving mechanism comprises:

Be fixed on described motor output shaft with the eccentric component therewith rotated; With

Cylinder, is operationally connected with described shank component, and has restriction groove in the inner with complementary accommodating described eccentric component, so that the rotary motion of described eccentric component makes this Linear oscillating also make described shank component Linear oscillating thus.

3. tattooing machine according to claim 2, is characterized in that, described cylinder comprises:

There is the main piston of described restriction groove in the inner; With

Auxiliary piston, slidably and be nestedly placed in be limited to described main piston one end in axial dimple in, described shank component is fixed on described auxiliary piston to be synchronized with the movement with it.

4. tattooing machine according to claim 3, it is characterized in that, described main piston comprises the basal wall limiting described axial recess depth, when described eccentric component is when moving up described main piston and moving described auxiliary piston in said first direction by described main piston towards the first party of described auxiliary piston, described basal wall leans against one end of described auxiliary piston.

5. tattooing machine according to claim 4, it is characterized in that, described main piston comprises the sidewall limiting described axial dimple circumference, this sidewall limits axial groove, at least one of described auxiliary piston and described shank component is accommodating by this axial groove, and the end limiting the described sidewall of described axial groove limits the oscillating motion relative to described main piston of described auxiliary piston and described shank component.

6. tattooing machine according to claim 5, it is characterized in that, described cylinder comprises the accommodating shroud member in the inner of described main piston further, described shroud member has the axial sleeve groove be defined in wherein, the described axial groove be defined in described main piston slides along described axial sleeve groove, and described shroud member has the notch be defined in wherein, the groove of described main piston slides along this notch.

7. tattooing machine according to claim 2, comprises further:

Pair of magnet, the oscillating motion of the one end being axially arranged on cylinder in described main shell with the oscillating motion of cylinder described in damping and thus shank component described in damping.

8. tattooing machine according to claim 7, is characterized in that, when described cylinder is static, this is to limiting an axial distance between Magnet, and described axial distance is adjustable.

9. tattooing machine according to claim 8, it is characterized in that, this to the first magnet arrangements of Magnet for be synchronized with the movement with described cylinder, this is fixed relative to described main shell normality the second Magnet of Magnet, described second Magnet relative to described main shell for move adjustably, to adjust this to the described axial distance between Magnet.

10. tattooing machine according to claim 9, is characterized in that, when pipe of tatooing is installed and is fixed on described main shell, described second Magnet is prevented from adjustment.

11. tattooing machines according to claim 9, is characterized in that, this lower end Magnet being arranged on to described cylinder is with the extension campaign of shank component described in damping.

12. tattooing machines according to claim 11, it is characterized in that, this is pair of magnet to Magnet, and described tattooing machine comprise further:

Second pair of Magnet, is axially arranged on the upper end of described cylinder with the retracting motion of shank component described in damping in described main shell.

13. tattooing machines according to claim 12, is characterized in that, when described cylinder is static, limit another axial distance, and another axial distance described are adjustable between described second pair of Magnet.

14. tattooing machines according to claim 2, is characterized in that, described cylinder comprises:

Described shank component and it is fixing with the main piston be synchronized with the movement with it.

15. tattooing machines according to claim 14, is characterized in that, described cylinder comprises:

Described main piston is placed in the shroud member in it, and described shroud member has the axial sleeve groove that described shank component extends through and the notch be defined to wherein, and the described groove of described main piston slides along this notch.

16. tattooing machines according to claim 1, it is characterized in that, described motor is firmly fixed in motor case, and this motor case is removably fixed on described main shell, thus allows described motor case and described motor optionally to dismantle from described main shell.

17. tattooing machines according to claim 16, is characterized in that, are connected by least one magnetic, and described motor case is removably fixed on described main shell.

18. 1 kinds of tattooing machines, comprising:

Main shell;

Be removably attached to the motor of described main shell;

Be fixed on the shank component of described main shell movably;

Driving mechanism, converts the linear movement of described shank component to by the spinning movement from described motor; With

Magnet, for shank component described in damping linear movement or removably motor is attached to described main shell.